KR100445082B1 - Cylindrical filtration and dehydration apparatus using synthetic fiber thread - Google Patents

Abstract

The present invention provides a feather-like fine yarn having good absorption ability in a triangular groove obtained by welding a stainless steel triangular dewatering support piece having a plurality of drainage holes to a top surface of an acid resistant stainless steel rotating cylinder installed in a mounting frame at regular intervals. Insert the clamping portion of the unit absorbing filter piece wrapped around the supporting rod with the triangular clamping piece, and fix both edges with an acid resistant band to form an absorbing filter layer on the rotating cylinder, and the compression belt on the upper part of the filter layer formed on the rotating cylinder. Is installed on the driving roller, the tension control roller and the guide roller, and installed by pressing several compression rollers installed between the drive roller and the tension control roller to effectively filter and dewater. In addition, the circumferential sides of the rotating cylinder are formed to form a circular guide, and the filtrate suction unit is installed at the dewatering part to suction and discharge the filtrate dehydration. By supplying the washing water, it washes the sludge remaining in the filter dehydration guide groove formed by the triangular support, and installs an angle of "<" in the washing tank installed in the lower part of the rotating cylinder so that it can effectively clean the feathers. And, to the left side of the washing tank to install the absorber to absorb the moisture contained in the yarn to enhance the absorption of the yarn.

Description

CYLINDRICAL FILTRATION AND DEHYDRATION APPARATUS USING SYNTHETIC FIBER THREAD}

The present invention relates to a cylindrical dewatering device using a synthetic resin fine yarn. More specifically, the dewatering of the stainless steel triangle with multiple drain holes on the upper surface of the acid-resistant stainless steel rotary cylinder installed in the mounting frame for more effective treatment of egg dewatering sludge generated in various industrial or manure treatment plants. Rotating the capping part of the unit absorbing filtration piece, which is wound by the triangular stencil, with a feather-like yarn having good absorption power in the triangular groove obtained by welding the supporting piece at regular intervals, and clamping the circumferential edge with an acid resistant band. The absorption filtration layer is formed on the cylinder, and the upper part of the filtration layer formed on the rotating cylinder is mounted on the driving roller, the tension roller, and the guide roller, and several compression rollers are installed between the driving roller and the tension roller. Can be filtered and dewatered effectively by installing and pressing The. In addition, the circumferential sides of the rotating cylinder are formed to form a circular guide, and the filtrate suction unit is installed at the dewatering part to suction and discharge the filtrate dehydration. By supplying the washing water, it washes the sludge remaining in the filter dehydration guide groove formed by the triangular support, and installs an angle of "<" in the washing tank installed in the lower part of the rotating cylinder so that it can effectively clean the feathers. In addition, the left side of the washing tank relates to a cylindrical dewatering filter using synthetic resin fine yarn to enhance the absorption of the fine yarn by absorbing the moisture contained in the fine yarn by installing an absorber.

Utility Model Registration No. 155337, which was previously registered by the applicant himself, is a cylindrical dewatering filtration device using synthetic resin yarns. To form a unit filter piece sandwiched by a certain thickness and a certain width on the stainless steel clamping piece so as to cover the rubber band consisting of a perforated plate and adhere it at a predetermined interval so that the front and rotation of the injection hole installed on one side of the rotating cylinder Absorption filtration is smooth because the press roller is installed at the rear of the cylinder.However, when the unit filter piece is attached, it is melted, so it is not uniformly pressed when pressed by the press roller. In addition, the unit filter piece is worn out during use and the rubber band is being replaced or repaired. To the complex to dismantle the filtration unit is attached to the side takes a lot of time to repair or replace the non-iteotda neungyul problems.

The present invention is a feather-like fine yarn with good absorption power in the triangular groove obtained by welding a stainless steel triangular dewatering support piece having a plurality of drainage holes on the upper surface of the rotating cylinder at regular intervals in order to solve the conventional problems as described above. Is inserted into the holding part of the unit absorption filter piece sandwiched by the triangular clamping piece, and the both edges are fixed with an acid resistant band so that an absorption filter layer is formed on the rotating cylinder, and the upper part of the filter layer formed on the rotating cylinder is compressed. The belt is mounted on the driving roller, the tension adjusting roller and the guide roller, and several compression rollers installed between the driving roller and the tension adjusting roller are installed and compressed to effectively filter and dewater. In addition, a stepped portion is formed on both sides of the rotating cylinder to form a circular guide, and a filtrate suction device is installed at the dewatering part to suction and discharge the filtrate dehydration. Supplying the washing water to wash the sludge in the filter dehydration guide groove formed by the triangular support, and to install the "<" type angle in the washing tank installed on the lower part of the rotating cylinder to make the finer fine feather The absorption device is installed on the left side of the tank to absorb the moisture contained in the yarn and to enhance the absorption of the yarn.

1 is a cross-sectional view of a partial summary of the present invention.

2 is a cross-sectional view taken along line II of the present invention.

3 is a perspective view of the main portion extraction of the present invention;

4 is a cross-sectional view of main parts of the present invention.

5 is a cross-sectional view taken along line II-II of the present invention.

<Explanation of main code of drawing>

10 mounting frame 10a support 11 rotating cylinder

12: drain hole 13: dewatering support 14: guide groove

15: triangular groove 16: guide 20: sesa

21: support rod 22: pinching piece 23: absorption filtration piece

24: acid resistance band 25: absorption filter layer 30: compression belt

31: driving roller 32: tension control roller 33: guide roller

34: compression roller 40: suction port 40a: supply port

41 suction device 41a feeder 42 wear-resistant layer

43,43a: Adjustment bolt 44,44a: Spring 50: Washing tank

51 angle 52 absorber

Filtered dewatering liquid by welding the stainless steel triangular dewatering support piece 13 which drilled a plurality of drain holes 12 on the upper surface of the stainless steel rotary cylinder 11 having strong acid resistance installed at the mounting frame at regular intervals. A guide groove 14 is formed, and a triangular groove 15 formed between the triangular support piece 13 and the triangular support piece 13 is wound around the support rod 21 with a feather-like fine thread 20 having good absorption force. Insert the clamping portion of the unit absorption filter piece 23 sandwiched by the triangular clamping piece 22 and fix both edges with the acid resistant band 24 so that the absorption filter layer 25 is formed on the rotating cylinder 11. By absorbing the water contained in the sludge, the upper portion of the absorption filter layer 25 formed on the rotary cylinder 11, the compression belt 30, the driving roller 31 and the tension control roller 32 and the guide roller ( 33) and install several pressing rollers between the driving roller (31) and the tension adjusting roller (32). Installing (34) makes it possible to stand the filtration dehydration effectively because compression. In addition, the circumferential suction port 40 is grounded on the side of the filtration dehydration guide groove 14 in the crimping dehydration part by forming a circular lubrication guide 16 by giving a step to both sides of the rotating cylinder 11. 41) is installed to suction and discharge the filtered dehydration liquid, and the pressure washing water supply device (41a) is installed so that the rectangular supply port (40a) is grounded on the side of the filter dehydration guide groove (14) at the lower part of the compression dewatering part. The washing water is supplied to wash the sludge remaining in the filtered dehydration guide groove 14. Here, at the periphery of the rectangular suction port 40a and the rectangular supply port 40a of the filtrate suction device 41 and the pressure washing water supply device 41a, a wear-resistant layer 42 such as uranium is formed and installed on the support 10a. The spring 44, 44a is controlled between the adjusting bolt 43, 43a and the periphery of the suction port 40 and the supply port 40a to maintain the airtightness of the ground part at all times, thereby maintaining the suction and discharge pressure of the filtration dehydration liquid. Ensure the supply of washing water is smooth. In addition, by installing an angle <51> of the "<" type in the washing tank 50 installed in the lower portion of the rotating cylinder 11 to effectively wash the fine thread 20 on the feather and seen in the drawing washing tank 50 By installing the absorber 52 in the upper left of the configured to be able to absorb and remove the moisture contained in the washed fine yarn (20).

Reference numeral 10b indicates a wastewater supply tank 35.35a indicates a scraper.

According to the present invention, a stainless steel triangular dewatering support piece 13 having a plurality of drain holes 12 drilled on an upper surface of an acid resistant stainless steel rotating cylinder 11 installed in the mounting frame 10 is hermetically welded at a predetermined interval. The filtration dehydration guide groove 14 is formed, and the triangular groove 15 formed between the triangular support piece 13 and the triangular support piece 13 is provided with a feather-like fine thread 20 having good absorbing power. ) Is inserted into the gripping portion of the unit absorption filtration piece (23) sandwiched by the triangular gripping piece (22), and both edges are fixed with an acid resistant band (24) to absorb the filtration layer (25) on the rotating cylinder (11). It is formed so as to absorb the moisture contained in the sludge supplied from the wastewater supply tank (10b), the compression belt 30 on the upper portion of the absorption filter layer 25 formed on the rotary cylinder 11 drive roller ( 31) and installed on the tension control roller (32) and guide roller (33) and the tension with the drive roller (31) A plurality of compression rollers 34 are installed between the control rollers 32 to compress and dehydrate water absorbed in the absorption filter layer 25 composed of fine yarns, thereby effectively filtering and dewatering. The scraper 35 and 35a installed at the rear side remove the sludge cake on the pressing belt 30 and the absorption filter layer 25. In addition, the circumferential suction port 40 is grounded on the side of the filtration dehydration guide groove 14 in the crimping dehydration part by forming a circular lubrication guide 16 by giving a step to both sides of the rotating cylinder 11. 41) so that the filtered dewatering liquid is suctioned and discharged, and the pressure washing water supply device 41a is installed so that the rectangular supply port 40a is grounded at the side of the filtered dehydration guide groove 14 at the lower portion of the compressed dewatering part. By supplying the washing water, the sludge remaining in the filtered dehydration guide groove 14 formed by the triangular dehydration support piece 20 was washed, thereby effectively inducing the filtered dehydration liquid to be supplied next. Here, at the periphery of the rectangular suction port 40a and the rectangular supply port 40a of the filtrate suction device 41 and the pressure washing water supply device 41a, a wear-resistant layer 42 such as uranium is formed and installed on the support 10a. The spring 44, 44a is controlled between the adjustment bolt 43, 43a, the inlet 40, and the periphery of the supply inlet 40a, so that the airtightness of the ground part is kept uniform even during long-term use. Suction discharge and supply of pressure washing water is made smoothly. And by installing the angle (51) of the "<" type in the washing tank 50 installed in the lower portion of the rotary cylinder 11 to effectively wash the fine yarn 20 on the feather and seen in the drawing washing tank (50) By absorbing and removing the water contained in the washed fine yarn (20) by installing the absorber 52 in the upper left of the increase the absorption rate of the absorbent filtration layer (25) consisting of fine yarn can effectively absorb absorption filtration dehydration There is an advantage.

Claims (4)

Filtered dewatering liquid by welding the stainless steel triangular dewatering support piece 13 which drilled a plurality of drain holes 12 on the upper surface of the stainless steel rotary cylinder 11 having strong acid resistance installed at the mounting frame at regular intervals. A guide groove 14 is formed, and a triangular groove 15 formed between the triangular support piece 13 and the triangular support piece 13 is wound around the support rod 21 with a feather-like fine thread 20 having good absorption force. Insert the clamping portion of the unit absorption filter piece 23 sandwiched by the triangular clamping piece 22 and fix both edges with the acid resistant band 24 so that the absorption filter layer 25 is formed on the rotating cylinder 11. In addition, a pressing device is installed on the upper portion of the rotary cylinder (11) to give stepped both sides to form a circular guide guide (16), and the dewatering portion has a rectangular suction port (40) for filtration dehydration guide groove (14). Install the filtrate suction device 41 so as to be grounded on the side of the The synthetic resin prepared by installing the pressure washing water supply device 41a so that the type supply port 40a is grounded on the side of the filtered dehydration guide groove 14 and the washing water tank 50 installed at the lower portion of the rotating cylinder 11. Cylindrical dewatering device using fine thread According to claim 1, wherein the upper portion of the absorption filter layer 25 formed on the rotary cylinder 11 is mounted on the driving roller 31, the tension control roller 32 and the guide roller 33 by pressing the compression belt (30) Cylindrical dewatering filtration device using a synthetic resin fine thread, which is compressed and dehydrated by installing several compression rollers 34 between the driving roller 31 and the tension control roller 32. The wear-resistant layer 42, such as urethane, is formed on the periphery of the rectangular suction port 40a and the rectangular supply port 40a of the filtrate suction device 41 and the pressure washing water supply device 41a. Synthetic resin thread which controls spring 43 and 44a between the control bolts 43 and 43a installed at 10a and the periphery of the inlet 40 and the supply inlet 40a to maintain the airtightness of the ground at all times. Cylindrical dewatering device using According to claim 1, wherein the angle 51 of the "<" type is installed in the washing tank 50 provided in the lower portion of the rotary cylinder 11, and the absorber 52 is installed in the upper left of the washing tank (50). Cylindrical dewatering device using synthetic resin fine yarn